Food freshness card

ABSTRACT

A food freshness card emits energy tuned to the natural frequency of fresh foods. The card may include a material programmed using scalar waves. The material may be a hologram. Information is embedded into the material via a setup that uses a wave function generator to produce resonant frequencies for the application and drive wave information from a transmitting electrode to a receiving electrode. The scalar waves between the electrodes may be subjected to a wave or field source modulating the resultant wave information received at the receiving electrode. A material placed on a receiving coil at the receiving electrode receives the resultant wave information programming the material to emit energy tuned to the natural frequencies of fresh foods. Food or liquid placed within an effective radius of the card is kept fresher by exposure to the energetic information emitted by the material.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims benefit under 35 U.S.C. §119(e) of U.S. Provisional Application having Ser. No. 61/933,682 filed Sep. 22, 2014, U.S. Non-Provisional Application having Ser. No. 14/670,152 filed Mar. 26, 2015, and U.S. Non-Provisional Application having Ser. No. 14/856,334 filed Sep. 16, 2015 which is hereby incorporated by reference herein in its entirety.

BACKGROUND

The embodiments herein relate generally to systems and chips for transdermal emission/augmentation of energy.

The ability to carry information through longitudinal wave carriers has until now, been underutilized. FIG. 1 shows an example of a Tesla coil, waveform/signal generator connected to a spherical electrode as disclosed by Konstantin Meyl's book Scalar Wave Technology: Documentation for the Experimental-Kit for the Transmission of Electrical Scalar Waves. Configured correctly, the Tesla coil may produce a longitudinal wave which may carry energetic information over space. FIG. 2 shows a configuration of connections of the components of longitudinal (scalar) electromagnetic wave/field generating equipment with additional connections to different jumper fields as disclosed by Konstantin Meyl. The configuration may transfer a waveform signal from the transmitter side to the receiver side and vice versa via the longitudinal waves carried through the field between two spherical electrodes.

Stressors to the human body have increased tremendously in the past few decades. Genetically modified foods, pollutions, toxins, and other sources have affected the ability of a human body to function in the way it was naturally intended to. The inventions of radio, cellular communication and other such devices that transmit electromagnetic waves/fields have also caused a new kind of stress to the body, electromagnetic pollution. Electromagnetic pollution is electric, magnetic or electromagnetic fields/waves which have a negative effect on health. Electromagnetic pollution is a relatively new kind of stressor to the body that needs to be dealt with. Cell phones and similar EMF emitting devices ex: transponders and GPS locators are a source of electromagnetic pollution and are used by over 90% of adults according to Pew Research Center. Electromagnetic pollution can cause a variety of serious health problems and negative stressors to the body which include: DNA damage, an increased risk of cancer, loss of fertility, effects on brain function, metabolic changes, disruption of the immune system, and thermodynamic changes of the body.

There exist a number of approaches to communicate with the human biofield to produce a desired reaction in the body, which include for example acupuncture as well as a variety of other techniques. Electricity, magnetism, electromagnetic waves/fields, and acoustic waves can all be used to send messages to the body and its energetic field. For example a study done by the department of biomedical engineering at Columbia University found that pulsed electromagnetic field therapy had a significant and rapid impact on pain from early knee osteoarthritis. The human body can be influenced by different forms of electromagnetic waves/fields and frequencies to deal with stressors and illness to the body.

As can be seen, there is a need for a device and system that may positively communicate to the human biofield to combat the negative effects experienced by the human body.

SUMMARY

According to one embodiment of the subject technology, a chip for transdermal emission/augmentation of energy comprises a chip body, a holographic layer of the chip body, and a hologram in the holographic layer. The hologram may emit and/or augment energetic frequencies/information tuned via longitudinal carrier waves from a pair of pancake coils passed through a tuning medium. The energetic frequencies/information of the hologram may be tuned for interaction with a bodily function.

According to another embodiment of the subject technology, a system for programming chips for transdermal emission/augmentation of energy comprises a wave function generator, a transmitter pancake coil, a first spherical electrode electrically coupled to the transmitter pancake coil, a hologram chip in proximity to the transmitter pancake coil, a receiver pancake coil electrically coupled to the transmitter pancake coil, a second spherical electrode electrically coupled to the receiver pancake coil, and a tuning medium in proximity with the receiver pancake coil. The tuning medium may include natural frequencies/information that is transferred to the hologram chip in response to a wave function driving the transmitter pancake coil. The driven transmitting pancake coil may cause an energetic field between the first and second spherical electrodes to charge the receiver pancake coil and transmit the natural frequencies/information of the tuning medium to the hologram chip.

According to yet another embodiment of the subject technology, a method of programming a hologram chip for use in transdermal emission/augmentation of energy, comprises positioning the hologram chip in proximity to a transmitter pancake coil and positioning a tuning medium in proximity to a receiver pancake coil. The position of the hologram chip and tuning medium may be interchangeable. The transmitter pancake coil is electrically coupled to a first spherical electrode, the receiver pancake coil is electrically coupled to a second spherical electrode, and the transmitter pancake coil is electrically coupled to the receiver pancake coil. The method further comprises driving a wave generator to provide a driving frequency to the transmitter pancake coil to produce an energetic field between the first and second spherical electrodes, the energetic field driving the receiver pancake coil to transmit the frequencies/information of the tuning medium to the transmitter pancake coil to charge the hologram chip with the frequencies/information of the tuning medium.

According to still yet another embodiment of the subject technology, a system for transdermal emission and/or augmentation of energy to a user comprises a chip body, a holographic layer of the chip body, a hologram in the holographic layer and a fabric body. The hologram is configured to emit and/or augment energetic information tuned via longitudinal carrier waves from a pair of pancake coils passed through a tuning medium. The energetic information of the hologram is tuned for interaction with a bodily function. The chip body is attached to the fabric body. The chip body is disposed to transmit and/or augment energy/information transdermally from the hologram to the user.

According to still yet another embodiment of the subject technology, a food freshness card comprises a card substrate and a chip body attached to the card substrate. The chip body includes a material programmed via longitudinal carrier waves to emit energetic information tuned for interaction with an organic structure in a piece of food or liquid when the chip body is positioned proximate the piece of food.

According to still yet another embodiment of the subject technology, a method of programming a food freshness card to preserve freshness in food or water comprises placing a material substrate on a receiving coil coupled to a first electrode; driving a signal wave for a second electrode via a wave function generator at a resonance frequency producing a longitudinal wave at the first electrode and receiving coil; modulating the longitudinal wave with a wave or field source operated at a predetermined frequency directed at the longitudinal wave; conducting the modulated longitudinal wave to the receiving coil; and embedding the material with information in the form of the modulated longitudinal wave programmed by the predetermined frequency of the wave or field source and the signal wave from the wave function generator, the information being tuned to a natural frequency of fresh foods.

BRIEF DESCRIPTION OF THE FIGURES

The detailed description of some embodiments of the present invention is made below with reference to the accompanying figures, wherein like numerals represent corresponding parts of the figures.

FIG. 1 is a schematic of an air cored transformer with couple coil and pancake coil;

FIG. 2 is a schematic of a longitudinal wave/field generating circuit;

FIG. 3 is a block diagram of a system for programming a chip for transdermal emission of energy in accordance with an embodiment of the subject technology;

FIG. 4 is a perspective view of a system setup for programming a chip for transdermal emission of energy in accordance with an embodiment of the subject technology;

FIG. 5 is a cross-sectional side view of a shoe incorporating an insole including a programmed chip of FIG. 4 in accordance with an embodiment of the subject technology;

FIG. 5A is a perspective top view of an insole of FIG. 5.

FIG. 5B is a top view of a plurality of programmed chips of FIG. 4 attached to a pair of insole inserts in accordance with an embodiment of the subject technology;

FIG. 6A is a perspective top view of a bandage system including a programmed chip of FIG. 4 in accordance with an embodiment of the subject technology;

FIG. 6B is a perspective bottom view of the bandage system of FIG. 6A;

FIG. 6C is a top view of a bandage system including a programmed chip of FIG. 4 attached over a bandage wrapped around a wrist in accordance with an embodiment of the subject technology;

FIG. 6D is a perspective view of a bandage system including an array of programmed chips partially exposed between layers of gauze in accordance with an embodiment of the subject technology;

FIG. 7 is a top view of a pair of insoles comprising respectively programmed chips for transdermal emission of energy in accordance with an embodiment of the subject technology;

FIG. 8 is a bottom view of a pair of insoles including respectively programmed chips for transdermal emission of energy and transcutaneous electrical nerve stimulation units in accordance with an embodiment of the subject technology;

FIG. 9 is a block diagram of a system integrating the programmed chips for transdermal emission of energy and transcutaneous electrical nerve stimulation units onto an insole of FIG. 8 in accordance with an embodiment of the subject technology;

FIG. 10 is a top view of a vibration mat including an array of programmed chips in accordance with an embodiment of the subject technology;

FIGS. 11A and 11B are front and rear views respectively of an electronic mobile device incorporating a programmed chip of FIG. 4 in accordance with an embodiment of the subject technology;

FIG. 12 is a side view of a bottle of fluid incorporating a programmed chip of FIG. 4 in accordance with an embodiment of the subject technology; and

FIG. 13 is a top view of a food freshness card including a programmed chip in accordance with an embodiment of the subject technology.

DETAILED DESCRIPTION OF CERTAIN EMBODIMENTS

Broadly, embodiments of the subject technology provide a system, method, and product of the system and method that uses information carried by longitudinal waves to program a chip for transdermal emission and/or augmentation of energy. Embodiments of the subject technology have been proven to help the body fight off the negative stressors of electromagnetic pollution and allow the body to function healthier. Aspects of the disclosed chip produces a positive effect on people and allows the body to function at its optimal rate in the presence of the above described stressors. In a heart rate variable study done by Dr. Joseph Teff the effects of cell phone use with and without the disclosed chip were tested. The results found the chips were effective in reducing stress to the central nervous system caused by the detrimental electromagnetic frequencies from cell phone use. In another study done by Modern Testing Services the thermodynamic effects of cell phone use with and without the disclosed chip was tested. The results were conclusive and found that cell phone use with an embodiment of the disclosed chip on a phone dramatically reduced the thermodynamic stress to the human body caused by cell phone use.

In an exemplary use, the chip may be integrated into a wearable article or may be directly worn by a person. The chip may be programmed to emit and/or augment energetic frequencies/information that are tuned to interact with a bodily function. In an exemplary embodiment, the chip includes a hologram carrying the information. For example, the hologram may be tuned to output and/or augment an energetic frequency that causes blood flow to increase/decrease within a portion of the body in proximity to the chip.

The word “exemplary” is used herein to mean “serving as an example or illustration.” Any aspect or design described herein as “exemplary” is not necessarily to be construed as preferred or advantageous over other aspects or designs. The word “information” is used herein to refer to a specific frequency or range of frequencies or waveforms emitted by an object in the form of an electromagnetic wave or field. The word “augment” is used herein to refer to interacting with the charge or field of another object.

Referring now to FIGS. 3 and 4, an exemplary a system 25 setup for programming a hologram chip according to an exemplary embodiment of the subject technology is shown. In general, a transmitting pancake coil 18 (sometimes referred to as a Tesla coil) is electrically connected to a receiver pancake coil 20. The transmitting pancake coil 18 and receiver pancake coil 20 may be separated by a predetermined distance (for example, 3 feet) and each may be connected to a respective spherical electrode 16 separated by approximately the same distance. A programmable object 26, for example, a hologram chip may be positioned in proximity to (or in contact with) the transmitting pancake coil 18. It will be understood that the proximity to the transmitting pancake coil 18 may be based on the magnitude of the field generated by the coil 18. The programmable object 26 may be any object that can be modified by a longitudinal (scalar) charge or a longitudinal (scalar) wave/field. For sake of illustration, the programmable object 26 will be referred to herein as the hologram chip 26. The hologram chip 26 may include a chip body with a holographic layer containing a hologram. The hologram may emit and/or augment energetic frequencies/information through transdermal means. The hologram may be programmed to the natural frequencies/information of a tuning medium 30 positioned in contact with the receiver pancake coil 20. The tuning medium 30 may be any single or combination of a solid, liquid, gas, or plasma. In the example shown, liquid melatonin is a tuning medium 30 whose natural frequencies/information may be programmed into the hologram so that the frequencies/information may be turned into an energetic signal which can be transmitted transdermally from the chip to the user. The information carried by the natural frequencies/information of melatonin may thus interact with a portion of the body affecting certain functions.

To tune the hologram chip 26, an exemplary method generates and augments longitudinal waves/field to carry the information from the tuning medium 30 to the hologram chip 26. A power source 10 may power a wave function generator 12 (for example a direct digital synthesis function generator) to produce wave signals. The wave function generator 12 may be tuned so the waves are in resonance. This can be achieved with a sine wave at an output amplitude of approximately 8 V_(PP) (Volts peak to peak) and a frequency of around 6 Mz (megahertz). Longitudinal waves may be produced in a field between the spherical electrodes 16. Energy from the receiving side spherical electrode 16 passing through the tuning medium 30 on the receiver pancake coil 20 may modulate the carrier longitudinal waves/fields to transfer the natural frequencies/information of the tuning medium 30 to the wave signals once the waves become in resonance. As shown, wiring 14 may electrically couple the power source 10 to the wave function generator 12, the wave function generator 12 to the transmitter pancake coil 18, and the transmitter pancake coil 18 to the receiver pancake coil 20.

In some embodiments, a sound source 22 and light source 24 may be included to augment/modulate the carrier longitudinal waves. In an exemplary embodiment, the sound source 22 may produce sound waves at variable frequencies. The sound source 22 may be positioned approximately three feet perpendicular to the middle of the line created by the transmitter pancake coil 18 and receiver pancake coil 20. The light source 24 may produce light waves at variable frequencies on the opposite side of the sound source 22. The light source 24 may be positioned approximately three feet perpendicular to the middle of the line created by the transmitter pancake coil 18 and receiver pancake coil 20. The sound source 22 may be tuned to a frequency of approximately 20 Hertz. The light source 24 may be tuned to a frequency of approximately 20 Hertz. The sound and light waves produced may augment/modulate the carrier longitudinal (scalar) waves/fields to transfer additional specific information and/or messages. The light and sound waves directly affect the longitudinal waves by influencing both the longitudinal waves/field as well as the receiving/transmitting coils. The light and sound do not necessarily change the information the melatonin is sending to the hologram chip 26 but may only add to information associated with the melatonin. If the frequencies for melatonin (or another tuning medium 30) were known then they can be played through the speakers and light to add more information into the hologram chip 26. In an exemplary embodiment, the system may run for approximately thirty minutes for the hologram to be transformed with the information transferred by the longitudinal waves.

The following discloses exemplary embodiments of the subject technology incorporated into various articles of manufacturer that may provide physiological benefits to end users. The hologram chip 26 may be conveniently worn or attached to various articles so that the information programmed into the chip 26 may be transferred to the user and/or to the article to which it is attached. The benefits of the hologram chip 26 have been tested on human subjects to compare the physiological effects of using the chip 26 to performance without the chip 26.

Table 1 below shows testing data of physiological effects on users before and after wearing an article with the hologram chip 26. The test measured blood flow through the posterior tibial artery (PTA) of various individuals. As can be seen, with the exception of one data point, there was a significant improvement in the blood flow through the PTA of each test subject after having worn the article with the hologram chip 26.

TABLE 1 PTA PTA PTA PTA PTA PTA Immediately Immediately Variance Variance Weight Pre- Pre- After After (Right) (Left) Test Subject Height (Lbs.) Age Right Left (Right) (Left) (%) (%) Female Risk 5′11″ 170 50 66 59 70 71 6 17 Management Male ER Nurse/ 6′4″ 210 46 69 65 81 80 15 19 Firefighter Female N/A N/A N/A 61 52 71 56 14 7 Registered Nurse Male 5′10″ 200 42 69 87 85 89 19 2 Radiology Technician Male 6′5″ 290 48 69 67 68 79 (−) 1 15 Corporate Risk Management Female 5′7″ 174 56 43 45 75 51 43 12 Respiratory Therapist

Table 2 below shows additional test results from an individual before wearing an article with the hologram chip 26 and after wearing the hologram chip 26. The test subject performed various exercises and weight resistance for each side (if applicable) was measured. The test data shows strength improvement in exercises as measured by increased weight resistance capacity as a correlation of having worn the hologram chip 26.

TABLE 2 Previous Exam Current Change Date Left Right Diff Left Right Diff Left Right Neck/Trunk Recent Change Trunk Flexion Jun. 16, 2015 56.7 lbs. — 63.0 lbs. — 11% Upper Extremity Recent Change Shoulder Flexion Jun. 16, 2015 11.4 lbs. 12.5 lbs. −9% L 15.2 lbs. 14.2 lbs. −7% R 34% 14% Lower Extremity Recent Change Knee Extension Jun. 16, 2015 32.5 lbs. 32.3 lbs. −1% R 43.6 lbs. 47.3 lbs. −8% L 34% 46%

Referring now to FIGS. 5, 5A, and 5B a system 100 for transdermal emission and/or augmentation of energy to a user is shown according to an exemplary embodiment of the subject technology. The system 100 includes the hologram chip 26 attached to a fabric body 50. The fabric body 50 may be an article of apparel so that the hologram chip 26 is in close proximity to the human body for transdermal emission and/or augmentation of information stored within the hologram of the chip 26. An excellent consumer product that would benefit the user is a shoe incorporating the chip 26. A shoe provides the means to carry hologram chip(s) 26 in close and constant proximity to the user's dermis. As may be further appreciated, the sole of the foot is considered by many holistic practitioners to be an important interface to the health of the human body. In some embodiments, the hologram chips 26 may be positioned in alignment with reflexology points, acupuncture points and meridian pathways. In the exemplary embodiment shown, the fabric body 50 is an insole insert with a plurality of hologram chips 26. For example, the hologram chips 26 may be positioned to optimize coverage with the foot. In some embodiments, the hologram chips 26 may be positioned on an exterior surface of the fabric body 50 for direct contact with skin of the user. In some embodiments the chip(s) 26 may line the interior of two pieces of fabric bodies 50. Ultrasound Doppler testing of blood flow to feet has shown an instant increase of approximately 14% when the feet are in contact with enhanced footwear or insoles using the subject technology. Longer use has shown even higher blood flow increase.

Referring now to FIGS. 6A and 6B, a system 200 for transdermal emission and/or augmentation of energy to a user is shown according to an exemplary embodiment of the subject technology. The system 200 includes the hologram chip 26 attached to a fabric body 210. The hologram chip 26 may include a flexible body that may curve with the natural curvature of human body parts. In an exemplary embodiment, the fabric body 210 is an adhesive bandage including adhesive sections 215. In an exemplary embodiment, the hologram chip 26 is positioned intermediate the adhesive sections 215 so that in use, the hologram chip 26 is positioned over a selected area of skin and the adhesive sections 215 secure the fabric body 210 to the surrounding skin. As may be appreciated, aspects of the system 200 may be useful on fingers or other round body parts (shins, arms, etc.) in which the hologram chip 26 may bend and remain in contact with the rounded body surface. Some embodiments may include a layer of medicated fluid 250 applied over the hologram chip 26. In use, the layer of medicated fluid 250 interacts with the transmitted and/or augmented information from the hologram chip 26 to augment healing. For example, the layer of medicated fluid 250 may be an adhesive, gel, or ointment. The system 200 may be applied to an injured area (for example, a cut or burn) so that the hologram chip 26 and medicated fluid 250 may interact with the injury to stimulate body tissue and accelerate healing.

Referring now to FIG. 6C, a system 300 for transdermal emission and/or augmentation of energy to a user is shown according to an exemplary embodiment of the subject technology. The system 300 is similar to the system 200 except that the fabric body 310 is a wrappable bandage or gauze. As shown, the hologram chip 26 is exposed however it will be understood that the hologram chip 26 may be covered by another layer of bandaging/gauze. Some embodiments may include the medicated fluid 250 (on an underside of the hologram chip 26 so that the medicated fluid 250 may be absorbed through the fabric body 310 into contact the underlying skin. In the embodiment shown, the system 300 may be useful for treating a wrist sprain or similar soft tissue damage.

Referring now to FIG. 6D, a system 400 for transdermal emission and/or augmentation of energy to a user is shown according to an exemplary embodiment of the subject technology. The system 400 may be useful for treating large area topical ailments. The system 400 is similar to the system 300 except that the fabric body 310 includes an array 425 of hologram chips 26 to provide a wider area of coverage. The hologram chips 26 may be attached on the fabric body 315 so that the fabric body 315 is between the underlying skin and the hologram chips 26 for indirect contact with the skin. Another layer of the fabric body 315 may be wrapped around the hologram chips 26. As shown, the array 425 is partially covered on the right and left sides of the array and the array 425 is exposed for sake of illustration.

Referring now to FIG. 7, a hologram chip 500 for transdermal emission and/or augmentation of energy to a user is shown according to an exemplary embodiment of the subject technology. As discussed above with reference to FIGS. 5, 5A, and 5B, use of the hologram chip 26 to interface with the sole of one's foot may provide strategic access to physiological conduits of the human body. The chip 500 may be sized and shaped to mimic an insole so that it may be inserted within a shoe (for example as shown in FIG. 5). The hologram chip 500 is programmed in the same manner as the chip 26 and as may be appreciated, covers a greater area of a person's sole thus providing increased effect on the person. In some embodiments, the hologram chip 500 may be used in combination with a gel or other fluid medium to augment the information transmitted to the user. As a potential product, the chip 500 may be convenient for sale as a shoe accessory or as part of a shoe system.

Referring now to FIGS. 8 and 9, a system 600 of an exemplary embodiment is shown which includes the system 100 (fabric body 50 in the form of an insole insert along with the programmed chip 26) and transcutaneous electrical nerve stimulation (TENS) pads 650 coupled to the insole body 50. FIG. 9 shows additional elements which may not be visible in the embodiment shown in FIG. 8. For example, a controller/processor 610 may be connected to the TENS pads 650, to an accelerometer/tracker 620, to a wireless transceiver 630, and to a power source 640. The programmed chips 26 may be used in conjunction with electric, magnetic and/or electromagnetic fields/waves generated by the TENS pads 650 to amplify or enhance the effects on the person by the chip(s) 26. The accelerometer/tracker 620 may be programmed to track a user's performance. For example, a user may track performance (speed, exercise longevity, etc.) which may be transmitted in some embodiments by the wireless transceiver 630. In another example, the TENS pads 650 may be toggled on/off and the amplified effects of the TENS pads 650 in conjunction with the chip(s) 26 may be measured.

Referring now to FIG. 10, a system 700 of an exemplary embodiment is shown which includes a plurality of the programmed chips 26 coupled to a vibration mat 750. For sake of illustration, the underlying and mechanical features of the vibration mat 750 are omitted and will be understood to comprise elements of a vibration mat as is known in the art. For example, some embodiments may affix the vibration mat 750 surface to a vibration plate (not shown) or to a vibrating/frequency generating device (not shown). In an exemplary embodiment, the programmed chips 26 may individually be programmed (represented by chips 26 of varying shapes and sizes) to provide different effects on the user. Thus one vibration mat 750 may be configured to provide, for example, different effects to the end user.

Referring now to FIGS. 11A and 11B, a system 800 of an exemplary embodiment is shown which includes a programmed chip 26 coupled to a mobile electronic device 850. Many consumer electronic devices emit EMF that has been found in several studies to have a deleterious effect on the human body. The chip 26 may be programmed to offset the negative effects of EMF output from the mobile electronic device 850, which may be for example a smart phone, tablet, transponder, or GPS enabled device which users may frequently carry and/or put up to their head. For example, the EMF output may promote cancerous growth in body tissue. The incorporation of the chip 26 to the mobile electronic device 850 may promote healthy interaction with tissue simultaneously to the same area EMF output is affecting.

Referring now to FIG. 12, a system 900 of an exemplary embodiment is shown which includes a programmed chip 26 coupled to a container 950. The container 950 may be for example a bottle holding water or other liquid/beverage. The programmed chip 26 may transfer programmed information into the liquid to be consumed. The liquid may thus be a carrier of the programmed information that can be ingested internally so that the positive effects of the chip 26 may be carried through the circulatory system.

Referring now to FIG. 13, a food freshness card 1000 is shown according to an exemplary embodiment. The food freshness card 1000 may include the programmed chip 26 described above configured to preserve freshness in food/water. However, the material that is chosen to be programmed and/or modified with the longitudinal electromagnetic waves and/or fields can be any single form of combination of matter (for example: solids, liquids, gasses, plasma and Bose-Einstein condensates). In some embodiments, the programmed chip 26 may include a hologram because the properties of holographic material are conducive to the process of programming and/or modifying the material to contain information in wave/field form that reacts with a targeted object/material/organism. The chip 26 may be attached to a card substrate 1010. The chip 26 may include the holographic layer and hologram described above with respect to FIG. 4.

The chip 26 may be programmed using the method(s) described above with respect to FIGS. 3 and 4. The information that is chosen to be programmed/modified into the material depends on the desired function or goal of the material to achieve. In an exemplary embodiment, a process of programming the chip 26 may be used to produce the food freshness card 1000 that is designed to keep foods and/or liquids fresh longer as well as improve the taste. When the programmed card 1000 comes in close proximity to foods and/or liquids it has an effect on the food or liquid which can make the food and/or liquid last longer and taste better. The chip 26 in the food freshness card 1000 is programmed with longitudinal electromagnetic waves/fields (scalar waves) that are modulated to contain information that can react with the organic structure and/or organisms in food/water when the chip 26 is placed in proximity to food. The strength of emission in some embodiments may be effective up to for example, a 5 foot radius.

To program the chip 26 for food and liquid freshness, a hologram (or other medium) is placed on the receiving pancake coil 20 (FIG. 4). The sound source 22 (FIG. 4) is placed in the vicinity of the transmitter coil 18. The waveform/signal generator 12 may be turned on and the frequency tuned so that the coils are in resonance (around 7 MHz for the listed equipment). The sound source 22 may be tuned to play frequencies in the range from 20-27 Hz which are the frequencies of fresh foods according to Bruce Tainio. The system may run until the full ranges of frequencies are played programming the chip 26.

Electromagnetic, electric, magnetic, light, or sound waves and/or fields may be used on either one or any combination of the receiving 20 and/or transmitting pancake coils 18 (FIG. 4), in the field of the longitudinal electromagnetic wave and/or field or in the general vicinity. Electromagnetic waves and/or fields may change the waveform and/or field (ex: frequencies and/or amplitude/strength) to modulate the desired information onto the carrier wave. Matter can be placed on either one or any combination of the receiving and/or transmitting pancake coils, in the field of the longitudinal electromagnetic wave and/or field or in the general vicinity. Electromagnetic waves and/or fields can be used on either one or any combination of the receiving and/or transmitting pancake coils, in the field of the longitudinal electromagnetic wave and/or field or in the general vicinity. Electric waves and/or fields can be used on either one or any combination of the receiving and/or transmitting pancake coils, in the field of the longitudinal electromagnetic wave and/or field or in the general vicinity. Electric waves and/or fields may change the waveform and/or field (ex: frequencies and/or amplitude/strength) to modulate the desired information onto the carrier wave. Magnetic waves and/or fields can be used on either one or any combination of the receiving and/or transmitting pancake coils, in the field of the longitudinal electromagnetic wave and/or field or in the general vicinity. Light can be used on either one or any combination of the receiving and/or transmitting pancake coils, in the field of the longitudinal electromagnetic wave and/or field or in the general vicinity. The light may change waveform (ex: frequencies and/or amplitude) to modulate the desired information onto the carrier wave. Sound can be used on either one or any combination of the receiving and/or transmitting pancake coils, in the field of the longitudinal electromagnetic wave and/or field or in the general vicinity. The sound may change waveform (ex: frequencies and/or amplitude) to modulate the desired information onto the carrier wave. In addition to or used in conjunction with the listed methods above, the carrier wave can be modulated directly by the signal that is sent to the longitudinal electromagnetic wave and/or field producing device from the waveform/signal generator and/or in-between the waveform/signal generator and the longitudinal electromagnetic wave and/or field producing device.

Testing has been performed on the food freshness card 1000 to demonstrate the effect of the subject technology on fruit. Table 3 shows the effect the food freshness card 1000 has on voltage present in various pieces of fruit; one piece of a type of fruit without the food freshness card 1000 (the control piece) and with the food freshness card 1000. The higher the voltage present, the more energy the fruit has. The more energy the fruit has the longer it is believed to stay fresh.

TABLE 3 Voltage Readings Original Voltage Percent Voltage After 5 Hours Change Sample (VDC @ 2.5) (VDC @ 2.5) (%) Lemon Control 75 67.5 −10.00 Lemon w/Card 80 77.5 −3.13 Grapefruit Control 57.5 57.5 0 Grapefruit w/Card 60 62.5 4.17 Apple Control 85 85 0 Apple w/Card 75 82.5 10.00 Orange Control 65 65 0 Orange w/Card 57.5 75 30.43

As may be appreciated, pieces of fruit with the food freshness card 1000 in proximity showed better voltage levels than the control pieces of fruit. The control pieces of fruit either dropped in voltage over time or at best stayed the same. The pieces of fruit with the food freshness card 1000 however either had a slower rate of voltage decrease (as shown for example by the lemon test) or actually gained voltage over time when compared to fruit that did not lose voltage over the same time (see for example, the grapefruit test, the apple test, and the orange test).

To further demonstrate the effect of the subject technology on fruit, tests on resistance measured through pieces of fruit were performed. Resistance is the measure of how a material reduces the electric current flow through an object (measured in ohms), the more organized the molecules are, the easier it is for the electrons to pass through. A fruit with a high resistance means that the flow of electricity has a hard time getting through the conductive material in the organic structure. If the liquid structure inside the fruit were more organized in clusters, the electricity can flow through it without as much resistance. The more organized the liquid in the fruit, the easier it can send information and nutrients around which can make it healthier. As seen in Table 4, the resistance readings were more favorable to the pieces of fruit exposed to the food freshness card 1000 versus controlled pieces of fruit (no freshness card).

TABLE 4 Resistance Readings Original Resistance Percent Resistance After 5 Hours Change Sample (Ω × 1k) (Ω × 1k) (%) Lemon Control 30 20.5 −31.67 Lemon w/Card 28 17.5 −37.50 Grapefruit Control 29 25 −13.79 Grapefruit w/Card 24 18 −25.00 Apple Control 33.5 21 −37.31 Apple w/Card 41 16 −60.98 Orange Control 42 36 −14.29 Orange w/Card 39.5 30 −24.05

Additional tests compared the levels of nitrates in pieces of fruit with and without exposure to the food freshness card 1000. High levels of nitrates can be toxic to human consumption. Initially nitrates can be added as a preservative but as a fruit decomposes the bacteria inside can change the nitrate levels. When the food is spoiled the higher levels of nitrate cause a change in taste as well as an odor.

Pregnant women are advised to avoid high nitrate water because research shows a possible connection of nitrates to birth defects and miscarriages. Other research, published in the Journal of Alzheimer's Disease, investigated trends in death rates due to diseases associated with advancing age. Convincing parallels between age adjusted rises in mortality from certain illnesses, Alzheimer's, Parkinson's, and diabetes and the steadily increasing human exposure to nitrates, nitrites and nitrosamines through processed and preserved foods as well as fertilizers were found. Table 5 shows how pieces of fruit exposed to the food freshness card 1000 slow the rate if nitrate production over days when compared to naturally decaying piece of fruit that are not exposed to the food freshness card 1000. As may be appreciated, in general the food freshness card 1000 appears to slow down the rate of nitrate production and in each case, lowered the nitrate level temporarily before the nitrate content began to rise again.

TABLE 5 Nitrate Levels Nitrate Level Nitrate Level Nitrate Level (mg/kg) (mg/kg) (mg/kg) Sample Date: 4/29 Date: 5/9 Date: 5/16 Grapes Control 70 50 50 Grapes w/Card 71 56 49 Cantaloupe Control 120 92 145 (Dangerous) Cantaloupe w/Card 120 89 111 Watermelon Control 76 57  93 (Dangerous) Watermelon w/Card 79 58 69 Kiwi Control 85 76 102 Kiwi w/Card 98 63 88

Persons of ordinary skill in the art may appreciate that numerous design configurations may be possible to enjoy the functional benefits of the inventive systems. Thus, given the wide variety of configurations and arrangements of embodiments of the present invention the scope of the present invention is reflected by the breadth of the claims below rather than narrowed by the embodiments described above. For example, many other articles of manufacture may incorporate the programmed hologram chip 26 providing positive health benefits as described above. While shoes were described as one excellent product carrying the chip 26, other pieces of clothing are likewise contemplated. In addition, other apparel or accessories (for example eye wear, jewelry, etc.) may incorporate the chip 26 with similarly expected results and are contemplated herein. 

What is claimed is:
 1. A food freshness card, comprising: a card substrate; a chip body attached to the card substrate wherein the chip body is programmed with longitudinal electromagnetic scalar waves having an amplitude and/or frequency of the waveform change to modulate desired information onto a carrier wave, wherein electromagnetic waves in the form of light and/or sound can be used on either one or any combination of receiving and transmitting pancake coils; and a hologram coupled to the chip body, the hologram configured to store and emit energetic information tuned for interaction with a piece of food when the chip body is positioned proximate the piece of food, wherein the energetic information stored in the hologram is programmed into the hologram via longitudinal carrier waves transmitted through a tuning medium apart from the chip body.
 2. The food freshness card of claim 1, wherein the chip body is positioned on an exterior surface of the card substrate for direct contact with the piece of food.
 3. The food freshness card of claim 1, wherein the programmed material has an effective strength of emission of approximately 5 feet in radius for indirect contact with the piece of food.
 4. A method of programming a food freshness card to preserve freshness in food or water, comprising: placing a chip body on a receiving pancake coil coupled to a first electrode; driving a signal wave for a second electrode via a wave function generator at a resonance frequency producing a longitudinal electromagnetic scalar wave at the first electrode and receiving pancake coil; modulating the longitudinal electromagnetic scalar wave with a wave or field source of light and/or sound operated at a predetermined frequency having an amplitude and/or frequency of a waveform change to modulate desired information onto a carrier wave directed at the longitudinal electromagnetic scalar wave; conducting the modulated longitudinal electromagnetic scalar wave to the receiving pancake coil; and embedding the chip body with the desired information in the form of the modulated longitudinal electromagnetic scalar wave programmed by the predetermined frequency of the wave or field source and the signal wave from the wave function generator, the information being tuned to a natural frequency of fresh foods. 